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Author Kim, Young Keun ♦ Lee, Seong-Rae ♦ Song, Se Ahn ♦ Park, Gyeong-Su ♦ Yang, Hyuck Soo ♦ Min, K. -I.
Sponsorship (US)
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Publisher The American Physical Society
Language English
Subject Keyword CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ♦ ANNEALING ♦ DIFFUSION ♦ GRAIN BOUNDARIES ♦ MAGNETORESISTANCE ♦ PHYSICS ♦ SPIN ♦ VALVES
Abstract We report annealing time effects on the microstructural evolution and resultant magneto-transport property changes in Ta/NiFe/CoFe/Cu/CoFe/PtMn/Ta spin valves comprising PtMn layer thicknesses ranging from 10 to 30 nm. Postdeposition annealing was performed at 270{degree}C up to 35 h. The blocking temperatures of samples with 20 nm PtMn and 30 nm PtMn layers were found to be 350{degree}C and 400{degree}C, respectively. The magnetoresistance and interlayer coupling field changes became large as annealing time increased, in particular, for samples with relatively thicker PtMn layers. The main cause of microstructural changes and property degradation was due to interlayer diffusion of atomic constituents such as Mn, most likely through grain boundaries. Light B doping (1 at.%) in both free and pinned CoFe layers was proven effective in terms of blocking diffusion processes. {copyright} 2001 American Institute of Physics.
ISSN 00218979
Educational Use Research
Learning Resource Type Article
Publisher Date 2001-06-01
Publisher Place United States
Journal Journal of Applied Physics
Volume Number 89
Issue Number 11


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